Robust H∞ Team Formation Tracking Design Methods of Large-Scale UAV Networked Control Systems

<p>This book introduces the centralized robust H∞ team formation tracking control strategy of multi-unmanned aerial vehicle (multi-UAV) network system under intrinsic random fluctuation time-varying delay and packet dropout in wireless communication and external disturbance. A simple robust decentralized H∞ proportional-integral-derivative (PID) reference tracking network control strategy is introduced for practical applications of team formation of large-scale UAV under control saturation constraint external disturbance and vortex coupling. It provides practical design procedures based on linear matrix inequalities (LMIs) solvable via LMI TOOLBOX in MATLAB®. </p><p>Features:</p><ul> <p> </p> <li>Focuses on the stabilization of a QUAV under finite-time switching model control (SMC)</li> <p> </p> <li>Discusses robustness control design for formation tracking in UAV networks </li> <p> </p> <li>Introduces different robust centralized and decentralized H∞ attack-tolerant observer-based reference team formation tracking control of large-scale UAVs </li> <p> </p> <li>Reviews practical case studies in each chapter to introduce the design procedures </li> <p> </p> <li>Includes design examples of team formation of 25 quadrotor UAVs and a team formation example of five hybrid quadrotor/biped robot sub-teams</li> </ul><p>This book is aimed at researchers and graduate students in control and electrical engineering.</p>